DE102007002682A1 - Damping device for damping arrangement of injector of motor vehicle to carrier body, has damping unit for damping, and rings for position-accurate fixing of injector with respect to carrying body, where device includes multipart structure - Google Patents

Abstract

The device (100) has a circular damping unit (102) e.g. metal cushion, for damping, and inner and outer rings (104, 106) for position-accurate fixing of an injector with respect to a carrying body, where the damping unit is based on its material property and/or form. The damping unit is circularly designed with approximately rectangular or square cross section, and the rings are connected with each other by the damping unit. The metal cushion consists of a wire mesh, metal foam, coated wires and/or plastic fibers and/or graphite, and the device is provided with a multipart structure.

Description

The The invention relates to a damping device for damping Arrangement of an injector on a support body and a Damping element for placement between an injector and a support body.

at Internal combustion engine with a crankcase, a cylinder head and a combustion chamber is usually the fuel means an injector injected into the combustion chamber, this points to the cylinder head the internal combustion engine opening into the combustion chamber Dom on, in which the injector is received. In the intermittent Injection during operation of the internal combustion engine are - conditionally by opening and closing the injector valve - strong Vibrations generated that negatively affect the comfort and acoustic behavior influence. Especially at elevated fuel pressures, as they prevail in direct injection systems in gasoline and diesel engines, occurs an increased vibration load. Furthermore carry modern combustion processes in which during the intake and compression stroke is a multiple injection, in particular to unwanted noise and vibration development.

Furthermore For example, injectors are used to inject urea used in the exhaust system of motor vehicles and are there the exhaust gas system mounted. There are similar problems as described above with regard to fuel injection, However, due to the high structure-borne sound transmission capability the exhaust system to a particular extent. Even with empty eyes the urea supply line must open the injector, so the line is ventilated. This happens when the internal combustion engine is switched off and is therefore due to non-existent noise emission the internal combustion engine, which could mask the noise of the injector, particularly critical in terms of acoustic comfort.

To reduce the noise emission has already been proposed with respect to an injector for fuel injection, to clamp the cylinder head mounted on the injector and to arrange a damping element at the junction between the cylinder head and injector. Such an arrangement with a damping element is from the DE 101 26 336 A1 known, it being proposed to use as the material for the damping element graphite, plastic or a memory metal, while the known damping element is constructed in one piece.

Around To achieve a high damping effect, it is necessary here, a sufficient amount of damping material between the injector and to arrange cylinder head and the damping element accordingly voluminous design. The disadvantage here is proved that an exact positioning of the injector in Reference to the cylinder head and thus the injection point in the combustion chamber not is always possible. In particular, it may be due to high Dimensional tolerances and elastic or plastic deformation the damping element with time to a shift come of the injector and thus the injection point, so that the Operation of the internal combustion engine is impaired.

Of the Invention is therefore based on the object, an aforementioned Damping device or an initially mentioned damping element going to improve that in addition to an effective damping, a decoupling of the injector from the support body, even small Dimensional tolerances and precise positioning of the injector be achieved with respect to the support body. In addition, should an elastic and / or plastic deformation of the damping element via its life can be avoided.

A Solution of the problem is done with a damping device having the features of claim 1, wherein the underlying idea a multi-part construction of the damping device comprises. The multi-part construction makes it possible, in addition to the damping even more functions in the damping device integrate. Another solution of the same task is done with a damping element having the features of the claim 11 by embodiment of the damping element as a metal cushion.

Especially advantageous embodiments and refinements of the invention are Subject of the dependent claims.

Prefers it is if the damping device has a first partial function range, which is essentially suitable for damping, and a second Part functional area, which is essentially for positional determination is suitable, has.

Expediently, the first sub-functional area comprises a damping element due to its material property and / or configuration. It has proved to be advantageous to use a metal pad of a wire mesh, which optionally comprises coated wires and / or plastic fibers. In addition to the material used, the special damping property also results from the particular design and / or the structure of the first partial function range. In the metal pad made of wire mesh is a very high energy dissipation due to the friction between the wires, the degree of damping can be further increased by coating the wires and / or a woven plastic threads. Particularly advantageous in conjunction with the good damping property, the mechanical dimensional stability of the metal pad.

Very It is advantageous if the first sub-functional area is annular, an at least approximately rectangular or square Cross-section, is configured.

Preferably the second subfunction area comprises a first injector side Part and a second support member side, wherein the first and the second part of the second partial function area by means of the first Subfunction area are interconnected. It is essential in this context, the decoupling of the first and second part of the second subfunction area.

Conveniently, is the first part of the second subfunction area as inner ring, encompassing the first subfunction area inside and on the injector side, configured and the second part of the second subfunction area as outer ring, the first part working area outside and supporting element side encompassing, designed. The second part of the second sub-function area is due to its shell-like Design suitable, for example, abrasion from the metal cushion Made of wire mesh or other particles, so that on advantageous Way that prevents particles from entering the combustion chamber or in the Exhaust gas leading part of the exhaust system arrive. By the second part of the second partial function area between the support element and first partial function area is arranged, a wear on Support element by abrasion avoided and at the same time the damping effect elevated.

Vort it is urgent if the first and the second part of the second subfunction area connected by means of a clamping fit with the first sub-functional area are.

at the damping element according to the invention the metal pad is preferably made of a wire mesh or from a metal foam. A further improvement of the damping property can be achieved by coating the metal pad Wires and / or plastic fibers and / or graphite includes.

Conveniently, the metal pad is annular, at least approximately having a rectangular or square cross-section, designed, so that in particular in connection with the chosen material the damping element a particularly high position and Dimensional accuracy achieved between injector and support element becomes.

following is a particularly preferable embodiment the invention with reference to figures explained in more detail, thereby show schematically and by way of example

1a a damping device in lateral view, cut,

1b a damping device in plan view,

2 an inner ring of a damping device,

3 an outer ring of a damping device and

4 a support element with injector and damping device mounted thereon.

1a shows a damping device 100 in side view in partial section, a top view is in 1b shown. The damping device 100 comprises an annular damping element 102 with square or rectangular cross section, so that two parallel contact surfaces 101 . 103 and an annular outer surface 105 and an annular inner surface 107 are formed. The damping element 102 , which forms a first part functional area, is presently formed as a metal cushion of a compressed wire mesh and consists of a stainless steel. In general, however, it is also possible to use other materials which have a large loss factor, ie the property of converting a large proportion of mechanical energy into heat by means of internal friction. For example, elastomeric plastics, special iron-manganese alloys, metallic alloys with shape memory effect or graphite-comprising materials can also be used.

The damping element 102 is from an inner ring 104 and an outer ring 106 enclosed, which together form a second subfunction area for positionally accurate determination. Both the inner ring 104 as well as the outer ring 106 are with the damping element 102 positively, for example in clamping connection, connected, but decoupled from each other by each remaining free column 109 . 111 are formed. To prevent, for example, abrasion of the damping element 102 reaches the outside, the damping element 102 also be completely encapsulated by the column 109 . 111 be sealed. In this case, preferably, the gap seal is similar compressible, as the damping element 102 , Such a gap seal can be made as a bellows made of metal or plastic.

The inner ring 104 . 204 is in 2 shown. It is annular, angular in cross-section, so that a disc-shaped area 212 to injector-side contact with the contact surface ( 1a : 101 ) of the damping element and an annular region 210 for contact with the inner surface ( 1a : 107 ) of the damping element is formed. Starting from the disk-shaped area 212 of the inner ring 204 are spring tongues 216 intended. By means of the spring tongues 216 the damping element is connectable to an injector, so that an assembly is facilitated and it is avoided that the installation of the damping element is forgotten. In addition, the non-positive and positive connection of the damping element 100 with the injector inwardly directed resilient projections 214 intended.

The outer ring ( 1 : 106 ) of the damping device is in 3 shown and there with 306 designated. The outer ring 306 is also configured annularly with an angular cross-section, wherein a disc-shaped surface 310 for contact element-side contact with the contact surface ( 1a : 103 ) of the damping element and an annular region 312 for attachment to the outside surface ( 1a : 105 ) of the damping element are formed. In one embodiment of the invention with a damping element 102 made of a highly elastomeric material limits the annular area 312 of the outer ring 306 the transverse strain of the damping element 102 in the outer direction, so that the rigidity of the seal assembly in the axial direction and the positional accuracy of the injection point in the combustion chamber is increased.

Both the inner ring 204 as well as the outer ring 306 in the present case are made of stainless steel and are punched and bent from sheet metal. The composite of inner ring 204 and damping element 102 and outer ring 306 is non-positive and positive fit using the spring action of the wire mesh ( 102 ). Alternatively, a connection can be made by means of spot welding or adhesive.

4 shows a section of an internal combustion engine not shown here with a crankcase, a cylinder head 426 and a combustion chamber enclosed by this 428 , The cylinder head 426 the internal combustion engine has one in the combustion chamber 428 opening cathedral 432 in which an injector 422 is included. The injector 422 includes a connection 424 for fuel supply and one in the combustion chamber 428 projecting nozzle 430 , At the contact point between the cylinder head 426 and injector 422 in the area of the injector foot 420 is a damping device according to the invention 400 arranged. With the arrangement shown, the vibrations generated in the intermittent fuel injection during operation of the internal combustion engine - even with increased fuel pressure, as prevail in direct injection systems in gasoline and diesel engines - effectively damped. At the same time a highly accurate injector position and thus a permanently precise injection point in the combustion chamber 428 reached. The damping device according to the invention makes it possible to comply with very small dimensional tolerances, which could hitherto only with extremely thin decoupling elements, which have a correspondingly low damping effect. The damping device achieves both vibration damping and vibration decoupling.

At the injector 422 it may also be an injector, for example for urea injection into the exhaust system of an internal combustion engine. In this case, the support element (in 4 : Cylinder head 426 ) the exhaust system, which then has in its wall an opening in which the injector 422 is included. Such an injector is used, for example, in the SCR process (Selective Catalytic Reduction, selective catalytic reduction) for exhaust gas purification.

Furthermore, the support member may also be a heat sink for be the injector. In this case, the holding device of the Injector in the heat sink decoupled or the structure-borne sound transmission attenuated. The heat sink is then in turn for example, attached to the exhaust system.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - DE 10126336 A1 [0004]

Claims (15)

Damping device ( 100 . 400 ) for damping arrangement of an injector ( 422 ) on a support body ( 426 ), characterized by a multi-part construction. Damping device according to claim 1, characterized in that a first partial function range ( 102 ) substantially for damping and a second subfunction area ( 104 . 106 ) essentially for the positionally accurate fixing of the injector ( 422 ) with respect to the supporting body ( 426 ) suitable is. Damping device according to claim 1 or 2, characterized in that the first sub-functional area ( 102 ) comprises a damping element due to its material property and / or design. Damping device according to claim 3, characterized in that the first sub-functional area ( 102 ) comprises a metal pad of a wire mesh. Damping device according to claim 4, characterized characterized in that the metal cushion coated wires and / or plastic fibers. Damping device according to one of claims 3 to 5, characterized in that the first sub-functional area ( 102 ) annular, having an at least approximately rectangular or square cross-section, is configured. Damping device according to claim 1 or 2, characterized in that the second sub-functional area ( 104 . 106 ) a first injector side part ( 104 ) and a second member ( 106 ) and the first and second parts ( 104 . 106 ) by means of the first subfunction area ( 102 ) are interconnected. Damping device according to claim 7, characterized in that the first part ( 104 ) of the second partial function area as inner ring ( 204 ) and the first subfunction area ( 102 ) on the inside and on the injector side. Damping device according to claim 7, characterized in that the second part ( 106 ) of the second partial function area as outer ring ( 206 ) and the first subfunction area ( 102 ) on the outside and on the supporting element side. Damping device according to one of claims 7 to 9, characterized in that the first and the second part of the second partial function area ( 104 . 106 ) by means of a press fit with the first subfunction area ( 102 ) are connected. Damping element ( 102 . 400 ) for arrangement between an injector and a support body ( 426 ), characterized in that the damping element ( 102 . 400 ) is a metal pillow. Damping element according to claim 11, characterized characterized in that the metal pad consists of a wire mesh. Damping element according to claim 11, characterized characterized in that the metal pad consists of a metal foam. Damping element according to one of the claims 11 to 13, characterized in that the metal cushion coated Wires and / or plastic fibers and / or graphite includes. Damping element according to one of the claims 11 to 14, characterized in that the metal cushion is annular, an at least approximately rectangular or square Cross-section, is configured.